TWI613856B

TWI613856B - Solderless cylindrical battery pack device

Info

Publication number: TWI613856B
Application number: TW105136188A
Authority: TW
Inventors: jin-chuan Liu; li-he Yao
Priority date: 2016-11-08
Filing date: 2016-11-08
Publication date: 2018-02-01
Also published as: US10497912B2; KR20180055671A; TW201818589A; JP6356874B2; US20180130981A1; JP2018078092A; KR101962858B1

Description

免銲的圓柱型電池組裝置Solderless cylindrical battery pack device

本發明係一種圓柱型電池組裝置，尤指一種免銲的圓柱型電池組裝置。 The present invention relates to a cylindrical battery pack device, and more particularly to a solderless cylindrical battery pack device.

利用電力作為能量來源之車輛系統早已開發多年，而其供電裝置可藉由組合多個蓄電池或是使用單一大型電池提供電力給車輛，惟前述兩種方式均存在相當大的缺點。以前者為例，若電池組是以多個蓄電池連接而成，僅僅單個蓄電池即具有相當重量，而佔據體積更是不可忽略，如此為數眾多的蓄電池所構成的電池組，若是應用於電動車輛系統，其龐大的體積及重量對車輛而言反而造成一極大的負擔。 Vehicle systems that use electricity as an energy source have been developed for many years, and their power supply devices can provide power to vehicles by combining multiple batteries or using a single large battery, but both of these approaches have considerable drawbacks. In the former case, if the battery pack is connected by a plurality of batteries, only a single battery has a considerable weight, and the occupied volume is not negligible. Thus, a battery pack composed of a large number of batteries is used in an electric vehicle system. Its huge size and weight pose a huge burden on the vehicle.

若是以單顆高容量的特殊電池作為供電裝置，其製造技術本身即比一般電池更為複雜，然而最重要的考量是使用上的安全性，此類電池隨著其體積的加大(端面直徑變大)，發生***的機率亦隨之提高，其危險及傷害不容輕視。 If a single high-capacity special battery is used as the power supply device, the manufacturing technology itself is more complicated than the general battery. However, the most important consideration is the safety of use. Such batteries increase in volume (end diameter). Increasingly large, the probability of an explosion increases, and the dangers and injuries cannot be underestimated.

現已開發出一種由複數電池集合連接而構成的電池組裝置。請參閱圖12所示，該電池組30係由複數個電池31集合連接而構成，且該些電池31係透過串並聯的混合連接，形成網狀式矩陣排列組合。該電池組30透過複數個導電體32分別連接該些電池31的正極或負極，令該些電池31並聯或串聯。 A battery pack device constructed by connecting a plurality of battery packs has been developed. Referring to FIG. 12, the battery pack 30 is formed by a plurality of batteries 31 connected in series, and the batteries 31 are connected in series and parallel to form a mesh matrix arrangement. The battery pack 30 is connected to the positive pole or the negative pole of the batteries 31 through a plurality of electrical conductors 32, so that the batteries 31 are connected in parallel or in series.

而該些電池31與該些導電體32的電連接方式是採用電銲方式進行，但該些電池31的數量龐大，需要各別與該導電體32銲接，造成銲接作業複雜，且極度耗費人力。 The electrical connection between the batteries 31 and the conductors 32 is performed by electric welding. However, the number of the batteries 31 is large, and it is necessary to separately solder the conductors 32, which causes complicated welding work and is extremely labor-intensive.

此外，由於該些電池31與該些導電體32是透過銲接方式電連接，當該電池組30中的部分電池31損壞而導致該電池組30無法正常供電使用時，因該電池組30中的該些電池31是透過銲接方式電連接，而解銲將當中尚未損壞的電池拆除回收再利用需耗費相當多的人力，且解銲的作業相當複雜，導致回收該些正常電池31的成本過高，根本不敷成本。因此只好將整個電池組30直接廢棄，相當的不環保。 In addition, since the batteries 31 and the electrical conductors 32 are electrically connected by means of soldering, when a part of the batteries 31 in the battery pack 30 are damaged and the battery pack 30 cannot be used normally, due to the battery pack 30, The batteries 31 are electrically connected by soldering, and the de-soldering removes and recycles the batteries that have not been damaged, which requires a considerable amount of manpower, and the desoldering operation is quite complicated, resulting in an excessive cost of recovering the normal batteries 31. There is no cost at all. Therefore, the entire battery pack 30 has to be directly discarded, which is quite environmentally unfriendly.

綜上所述，由於該電池組30的製作不僅費時且相當耗工，且回收再利用的成本過高，故現有的電池組勢必要做進一步之改良。 In summary, since the manufacture of the battery pack 30 is not only time-consuming and labor-intensive, but also the cost of recycling is too high, the existing battery pack is in need of further improvement.

有鑑於前揭電池組採用電銲接的製作方式費時又耗工的缺點，本發明提供一種免銲的圓柱型電池組裝置，而本發明的技術手段係令該免銲的圓柱型電池組裝置包含有：一第一蓋體，係具有：一第一壁面，係形成有複數第一穿孔；一第一環壁面，係環繞設置於該第一壁面周緣，且該第一環壁面係形成有複數第一***孔；及複數第一連接柱，係分別貫穿形成有一第一連接孔，而各該第一連接柱係分別對應該第一壁面的其中一第一穿孔設置，使得各該第一連接柱的第一連接孔係分別連通對應的第一穿孔；一第二蓋體，係具有：一第二壁面；一第二環壁面，係環繞設置於該第二壁面周緣，且該第二環壁面係形成有複數第二***孔；及複數第二連接柱，係設置於該第二壁面，且分別貫穿形成有一第二連接孔；其中各該第二連接柱末端係分別抵靠於其中一第一連接柱末端，且各該第二連接柱的第二連接孔係分別連通抵靠的第一連接柱的第一連接孔；複數圓柱型電池，係設置於該第一蓋體與該第二蓋體之間；其中各該圓柱型電池係分別具有一正極及一負極，且各圓柱型電池的正極係面向該第一蓋體，而各圓柱型電池的負極係面向該第二蓋體；複數鎖固元件，係分別自該第一蓋體的其中一第一穿孔穿入並鎖入該第一蓋體的第一連接孔與該第二蓋體的第二連接孔；一第一彈片，係具有一第一連接部及複數第一簧部；其中該第一連接部周緣係延伸形成該些第一簧部，且各該第一簧部係分別***該第一蓋體第一環壁面的其中一第一***孔中，並與該些圓柱型電池的正極接觸；一第二彈片，係具有一第二連接部及複數第二簧部；其中該第二連接部周緣係延伸形成該些第二簧部，且各該第二簧部係分別***該第二蓋體第二環壁面的其中一第二***孔中，並與該些圓柱型電池的負極接觸。 In view of the disadvantages of the time-consuming and labor-intensive manufacturing method of the prior art battery pack, the present invention provides a solderless cylindrical battery pack device, and the technical means of the present invention is to provide the solderless cylindrical battery pack device. There is: a first cover body having: a first wall surface formed with a plurality of first perforations; a first ring wall surface disposed around the circumference of the first wall surface, and the first ring wall surface is formed with a plurality of a first insertion hole; and a plurality of first connection columns are respectively formed with a first connection hole, and each of the first connection columns is respectively disposed corresponding to one of the first holes of the first wall surface, so that each of the first connections The first connecting holes of the column are respectively connected to the corresponding first through holes; and the second cover body has: a second wall surface; a second ring wall surface is disposed around the circumference of the second wall surface, and the second ring wall surface is formed with a plurality of second insertion holes; and a plurality of second connecting columns are disposed on the second wall surface And forming a second connecting hole respectively; wherein each of the second connecting post ends respectively abuts against one of the first connecting post ends, and the second connecting holes of each of the second connecting posts are respectively connected to the abutting a first connecting hole of the first connecting post; a plurality of cylindrical batteries disposed between the first cover and the second cover; wherein each of the cylindrical batteries has a positive electrode and a negative electrode, and each of the cylinders The positive electrode of the battery is facing the first cover, and the negative electrode of each cylindrical battery faces the second cover; the plurality of locking components are respectively inserted and locked from one of the first through holes of the first cover a first connecting hole of the first cover body and a second connecting hole of the second cover body; a first elastic piece having a first connecting portion and a plurality of first spring portions; wherein the first connecting portion is a peripheral edge Extending to form the first spring portions, and each of the first spring portions Inserting into a first insertion hole of the first ring wall surface of the first cover body and contacting the positive electrodes of the cylindrical batteries; a second elastic piece having a second connecting portion and a plurality of second spring portions; The second connecting portion extends to form the second spring portions, and each of the second spring portions is respectively inserted into one of the second insertion holes of the second ring wall surface of the second cover body, and the cylinders The negative electrode of the battery is in contact.

此外，本發明的另一技術手段係令該免銲的圓柱型電池裝置包含有：一第三蓋體，係具有：一第三壁面，係形成有複數第三穿孔；一第三環壁面，係環繞設置於該第三壁面周緣，且該第三環壁面係形成有複數第三***孔；複數第三連接柱，係分別貫穿形成有一第三連接孔，而各該第三連接柱係分別對應該第三壁面的其中一第三穿孔設置，使得各該第三連接柱的第三連接孔係分別連通對應的第三穿孔；一第四蓋體，係具有：一第四壁面；一第四環壁面，係環繞設置於該第四壁面周緣，且該第四環壁面係形成有複數第四***孔；複數第四連接柱，係設置於該第四壁面，且分別貫穿形成有一第四連接孔；其中各該第四連接柱末端係分別抵靠於其中一第三連接柱末端，且各該第四連接柱的第四連接孔係分別連通抵靠的第三連接柱的第三連接孔；複數第三圓柱型電池，係設置於該第三蓋體與該第四蓋體之間；其中各該第三圓柱型電池係分別具有一正極及一負極，且各第三圓柱型電池的正極係面向該第三蓋體，而各第三圓柱型電池的負極係面向該第四蓋體；複數第四圓柱型電池，係設置於該第三蓋體與該第四蓋體之間；其中各該第四圓柱型電池係分別具有一正極及一負極，且各第四圓柱型電池的負極係面向該第三蓋體，而各第四圓柱型電池的正極係面向該第四蓋體；複數鎖固元件，係分別自該第三蓋體的其中一第三穿孔穿入並鎖入該第三蓋體的第三連接孔與該第四蓋體的第四連接孔；一第三彈片，係具有一第三連接部及複數第三簧部；其中該第三連接部周緣係延伸形成該些第三簧部；一第四彈片，係具有一第四連接部、複數第四負極簧部及複數第四正極簧部；其中該第四連接部周緣係延伸形成該些第四負極簧部及該些第四正極簧部，且該些第四負極簧部及該些第四正極簧部係***該第四蓋體第四環壁面的該些第四***孔中，且該些第四負極簧部係與該些第三圓柱型電池的負極接觸，而該些第四正極簧部係與該些第四圓柱型電池的正極接觸；一第五彈片，係具有一第五連接部及複數第五簧部；其中該第五連接部周緣係延伸形成該些第五簧部；其中該第三彈片的該些第三簧部及該第五彈片的該些第五簧部係***該第三蓋體第三環壁面的該些第三***孔中，且該些第三簧部係與該些第三圓柱型電池的正極接觸，而該些第五簧部係與該些第四圓柱型電池的負極接觸。 In addition, another technical means of the present invention is that the solderless cylindrical battery device includes: a third cover having a third wall surface formed with a plurality of third through holes; and a third ring wall surface. The circumference of the third wall surface is formed around the third wall surface, and the third ring wall surface is formed with a plurality of third insertion holes; a plurality of third connecting columns are respectively formed with a third connecting hole, and each of the third connecting columns is respectively disposed corresponding to one of the third through holes of the third wall surface, so that the third connecting hole of each of the third connecting columns The fourth cover body has a fourth wall surface; a fourth ring wall surface is disposed around the periphery of the fourth wall surface, and the fourth ring wall surface is formed with a plurality of a fourth insertion hole; a plurality of fourth connection columns are disposed on the fourth wall surface, and respectively formed through a fourth connection hole; wherein each of the fourth connection column ends respectively abuts against one of the third connection column ends, and a fourth connecting hole of each of the fourth connecting posts is respectively connected to the third connecting hole of the third connecting post; the plurality of third cylindrical batteries are disposed between the third cover and the fourth cover Each of the third cylindrical battery cells has a positive electrode and a negative electrode, and a positive electrode of each of the third cylindrical batteries faces the third cover, and a negative electrode of each of the third cylindrical batteries faces the fourth cover. Body; complex fourth cylindrical type Provided between the third cover body and the fourth cover body; wherein each of the fourth cylindrical battery cells has a positive electrode and a negative electrode, and the negative electrode of each of the fourth cylindrical battery faces the third cover And the positive electrode of each of the fourth cylindrical batteries faces the fourth cover; the plurality of locking elements are respectively inserted from the third through hole of the third cover and locked into the third cover a third connecting hole and a fourth connecting hole of the fourth cover; a third elastic piece having a third connecting portion and a plurality of third spring portions; wherein the third connecting portion extends to form the third spring portion a fourth elastic piece having a fourth connecting portion, a plurality of fourth negative spring portions, and a plurality of fourth positive spring portions; wherein the fourth connecting portion extends to form the fourth negative spring portions and the fourth portions a positive electrode spring portion, and the fourth negative electrode spring portion and the fourth positive electrode spring portions are inserted into the fourth ring wall surface of the fourth cover body The fourth insertion holes are in contact with the negative electrodes of the third cylindrical batteries, and the fourth positive electrode portions are in contact with the positive electrodes of the fourth cylindrical batteries; a fifth elastic piece having a fifth connecting portion and a plurality of fifth spring portions; wherein the fifth connecting portion extends to form the fifth spring portions; wherein the third spring portions of the third elastic piece and the The fifth spring portions of the fifth elastic piece are inserted into the third insertion holes of the third ring wall surface of the third cover body, and the third spring portions are in contact with the positive electrodes of the third cylindrical batteries. And the fifth spring portions are in contact with the negative electrodes of the fourth cylindrical batteries.

由於本發明免銲的圓柱型電池組裝置係透過將該些圓柱型電池設置於該第一蓋體及該第二蓋體之間，且該第一蓋體與該第二蓋係透過該些第一連接柱與該些第二連接處抵靠後，利用該些鎖固元件，將該些第一連接柱與該些第二連接鎖固，令該第一蓋體與該第二蓋體組合，將該些圓柱型電池夾設於其中。再進一步將該第一彈片及該第二彈片分別***該第一***孔與該第二***孔，令該第一彈片與該些圓柱型電池的正極連接，且令該第二彈片與該些圓柱型電池的負極連接。藉此提供一種不需要將電極銲接在電池正負極上的電池組，如此一來便得以節省人力，並可縮短製作工時。此外，本發明免銲的圓柱型電池組裝置還可透過該第三彈片、該第四彈片及該第五彈片令該些第三圓柱型電池並聯以及該些第四圓柱型電池並聯，並進一步令該些並聯後的第三圓柱型電池與該些並聯後的第四圓柱型電池串聯，增加設計彈性。 The first type of the battery is disposed between the first cover and the second cover, and the first cover and the second cover pass through the After the first connecting post and the second connecting portions abut, the first connecting post and the second connecting are locked by the locking elements, so that the first cover and the second cover In combination, the cylindrical batteries are sandwiched therein. And inserting the first elastic piece and the second elastic piece into the first insertion hole and the second insertion hole respectively, so that the first elastic piece is connected to the positive poles of the cylindrical batteries, and the second elastic piece and the The negative pole of the cylindrical battery is connected. Thereby, a battery pack that does not need to solder the electrodes to the positive and negative electrodes of the battery is provided, thereby saving labor and shortening the manufacturing man-hour. In addition, the solderless cylindrical battery device of the present invention can further connect the third cylindrical batteries in parallel and the fourth cylindrical batteries in parallel through the third elastic piece, the fourth elastic piece and the fifth elastic piece, and further The parallel connected third cylindrical battery is connected in series with the parallel connected fourth cylindrical batteries to increase design flexibility.

10‧‧‧免銲的圓柱型電池裝置 10‧‧‧ Solderless cylindrical battery unit

11‧‧‧第一蓋體 11‧‧‧First cover

111‧‧‧第一壁面 111‧‧‧First wall

1111‧‧‧第一穿孔 1111‧‧‧First perforation

112‧‧‧第一環壁面 112‧‧‧First ring wall

1121‧‧‧第一***孔 1121‧‧‧First insertion hole

113‧‧‧第一連接柱 113‧‧‧First connecting column

1131‧‧‧第一連接孔 1131‧‧‧ first connection hole

12‧‧‧第二蓋體 12‧‧‧Second cover

121‧‧‧第二壁面 121‧‧‧ second wall

1211‧‧‧第二穿孔 1211‧‧‧Second perforation

122‧‧‧第二環壁面 122‧‧‧ second ring wall

1221‧‧‧第二***孔 1221‧‧‧Second insertion hole

123‧‧‧第二連接柱 123‧‧‧Second connection column

1231‧‧‧第二連接孔 1231‧‧‧Second connection hole

13‧‧‧圓柱型電池 13‧‧‧Cylindrical battery

14‧‧‧鎖固元件 14‧‧‧Locking components

15‧‧‧第一彈片 15‧‧‧First shrapnel

151‧‧‧第一連接部 151‧‧‧First connection

152‧‧‧第一簧部 152‧‧‧First Spring

16‧‧‧第二彈片 16‧‧‧Second shrapnel

161‧‧‧第二連接部 161‧‧‧Second connection

162‧‧‧第二簧部 162‧‧‧Second spring

20‧‧‧免銲的圓柱型電池裝置 20‧‧‧ Solderless cylindrical battery unit

21‧‧‧第三蓋體 21‧‧‧ third cover

210‧‧‧第三蓋單元 210‧‧‧ third cover unit

2101‧‧‧連接單元 2101‧‧‧Connection unit

2102‧‧‧卡溝 2102‧‧‧ card ditch

211‧‧‧第三壁面 211‧‧‧ third wall

2111‧‧‧第三穿孔 2111‧‧‧ third perforation

212‧‧‧第三環壁面 212‧‧‧ Third ring wall

2121‧‧‧第三***孔 2121‧‧‧ third insertion hole

213‧‧‧第三連接柱 213‧‧‧ third connecting column

2131‧‧‧第三連接孔 2131‧‧‧ third connection hole

22‧‧‧第四蓋體 22‧‧‧Four cover

220‧‧‧第四蓋單元 220‧‧‧Four cover unit

2201‧‧‧連接單元 2201‧‧‧ Connection unit

2202‧‧‧卡溝 2202‧‧‧ card ditch

221‧‧‧第四壁面 221‧‧‧ fourth wall

2211‧‧‧第四穿孔 2211‧‧‧fourth perforation

222‧‧‧第四環壁面 222‧‧‧ fourth ring wall

2221‧‧‧第四***孔 2221‧‧‧4th insertion hole

223‧‧‧第四連接柱 223‧‧‧fourth connecting column

2231‧‧‧第四連接孔 2231‧‧‧4th connection hole

23‧‧‧第三圓柱型電池 23‧‧‧ Third cylindrical battery

24‧‧‧第四圓柱型電池 24‧‧‧Fourth cylindrical battery

25‧‧‧鎖固元件 25‧‧‧Locking components

26‧‧‧第三彈片 26‧‧‧ Third shrapnel

261‧‧‧第三連接部 261‧‧‧ Third connection

262‧‧‧第三簧部 262‧‧‧ Third Spring

27‧‧‧第四彈片 27‧‧‧ fourth shrapnel

271‧‧‧第四連接部 271‧‧‧fourth connection

272‧‧‧第四負極簧部 272‧‧‧ fourth negative spring

273‧‧‧第四正極簧部 273‧‧‧ fourth positive spring

28‧‧‧第五彈片 28‧‧‧5th shrapnel

281‧‧‧第五連接部 281‧‧‧ fifth connection

282‧‧‧第五簧部 282‧‧‧ Fifth Spring

30‧‧‧電池組 30‧‧‧Battery Pack

31‧‧‧電池 31‧‧‧Battery

32‧‧‧導電體 32‧‧‧Electrical conductor

圖1係本發明第一較佳實施例之立體示意圖。 1 is a perspective view of a first preferred embodiment of the present invention.

圖2係本發明第一較佳實施例之分解示意圖。 Figure 2 is an exploded perspective view of a first preferred embodiment of the present invention.

圖3係本發明第一較佳實施例之剖面示意圖。 Figure 3 is a schematic cross-sectional view showing a first preferred embodiment of the present invention.

圖4係本發明第一較佳實施例另一視角之剖面示意圖。 Figure 4 is a cross-sectional view showing another perspective of the first preferred embodiment of the present invention.

圖5係本發明第二較佳實施例之立體示意圖。 Figure 5 is a perspective view of a second preferred embodiment of the present invention.

圖6係本發明第二較佳實施例之分解示意圖。 Figure 6 is an exploded perspective view of a second preferred embodiment of the present invention.

圖7係本發明第二較佳實施例之剖面示意圖。 Figure 7 is a cross-sectional view showing a second preferred embodiment of the present invention.

圖8係本發明第二較佳實施例另一視角之剖面示意圖。 Figure 8 is a cross-sectional view showing another perspective of the second preferred embodiment of the present invention.

圖9係本發明第二較佳實施例另一視角之剖面示意圖。 Figure 9 is a cross-sectional view showing another perspective of the second preferred embodiment of the present invention.

圖10係本發明第二較佳實施例之組裝示意圖。 Figure 10 is a schematic view showing the assembly of the second preferred embodiment of the present invention.

圖11係本發明第二較佳實施例另一視角之組裝示意圖。 Figure 11 is an assembled view of another perspective of the second preferred embodiment of the present invention.

圖12係習用電池組的分解示意圖。 Figure 12 is an exploded perspective view of a conventional battery pack.

以下配合圖式及本發明較佳實施例，進一步闡述本發明為達成預定目的所採取的技術手段。 The technical means adopted by the present invention for achieving the intended purpose are further explained below in conjunction with the drawings and preferred embodiments of the present invention.

請參閱圖1及圖2所示，本發明係一種免銲的圓柱型電池組裝置10，該免銲的圓柱型電池裝置10的第一較佳實施例係包含有一第一蓋體11、一第二蓋體12、複數圓柱型電池13、複數鎖固元件14、一第一彈片15及一第二彈片16。 Referring to FIG. 1 and FIG. 2, the present invention is a solderless cylindrical battery device 10. The first preferred embodiment of the solderless cylindrical battery device 10 includes a first cover 11 and a first cover. The second cover 12, the plurality of cylindrical batteries 13, the plurality of locking elements 14, a first elastic piece 15, and a second elastic piece 16.

請一併參閱圖3所示，該第一蓋體11係具有一第一壁面111、一第一環壁面112及複數第一連接柱113。該第一壁面111係形成有複數第一穿孔1111。該第一環壁面112係環繞設置於該第一壁面111周緣，且形成有複數第一***孔1121。各該第一連接柱113係分別貫穿形成有一第一連接孔1131，而各該第一連接柱113係分別設置於該第一壁面111的其中一第一穿孔1111上，且各該第一連接柱113的第一連接孔1131係分別連通對應的第一穿孔1111。 As shown in FIG. 3 , the first cover 11 has a first wall surface 111 , a first ring wall surface 112 , and a plurality of first connecting columns 113 . The first wall surface 111 is formed with a plurality of first through holes 1111. The first ring wall surface 112 is circumferentially disposed on the periphery of the first wall surface 111 and is formed with a plurality of first insertion holes 1121. Each of the first connecting posts 113 is formed with a first connecting hole 1131, and each of the first connecting posts 113 is respectively disposed on one of the first through holes 1111 of the first wall surface 111, and each of the first connections The first connecting holes 1131 of the column 113 are respectively connected to the corresponding first through holes 1111.

該第二蓋體12係具有一第二壁面121、一第二環壁面122及複數第二連接柱123。該第二環壁面122係環繞設置於該第二壁面121周緣，且形成有複數第二***孔1221。各該第二連接柱123係設置於該第二壁面121，且分別貫穿形成有一第二連接孔1231，而各該第二連接柱123末端係分別抵靠於其中一第一連接柱113末端，且各該第二連接柱123的第二連接孔1231係分別連通抵靠的第一連接柱113的第一連接孔1131。 The second cover 12 has a second wall surface 121 , a second ring wall surface 122 , and a plurality of second connecting posts 123 . The second ring wall surface 122 is circumferentially disposed on the periphery of the second wall surface 121 and is formed with a plurality of second insertion holes 1221. Each of the second connecting posts 123 is disposed on the second connecting wall 113, and each of the second connecting posts 123 is respectively abutted against the end of one of the first connecting posts 113. The second connecting holes 1231 of the second connecting posts 123 are respectively connected to the first connecting holes 1131 of the first connecting post 113.

該些圓柱型電池13係設置於該第一蓋體11及該第二蓋體12之間，且各圓柱型電池13分別具有一正極及一負極，而該些圓柱型電池13的正極係面向該第一蓋體11，該些圓柱型電池13的負極係面向該第二蓋體12。 The cylindrical battery 13 is disposed between the first cover 11 and the second cover 12, and each of the cylindrical batteries 13 has a positive electrode and a negative electrode, and the positive electrodes of the cylindrical batteries 13 face each other. In the first cover 11 , the negative electrodes of the cylindrical batteries 13 face the second cover 12 .

各該鎖固元件14係分別自該第一蓋體11的其中一第一穿孔1111穿入，並鎖入該第一蓋體11的第一連接孔1131及該第二蓋體12的第二連接孔1231。 Each of the locking elements 14 is inserted into the first through hole 1111 of the first cover 11 and locked into the first connecting hole 1131 of the first cover 11 and the second cover 12 The hole 1231 is connected.

請進一步參閱圖4所示，該第一彈片15係具有一第一連接部151及複數第一簧部152。該第一連接部151周緣係延伸形成該些第一簧部152，且各該第一簧部152係分別***該第一蓋體11第一環壁面112的其中一第一***孔1121中，並與該些圓柱型電池13的正極接觸。 Referring to FIG. 4 , the first elastic piece 15 has a first connecting portion 151 and a plurality of first spring portions 152 . The first connecting portion 151 extends to form the first spring portions 152 , and the first spring portions 152 are respectively inserted into one of the first insertion holes 1121 of the first ring wall surface 112 of the first cover 11 . And in contact with the positive electrodes of the cylindrical batteries 13.

該第二彈片16係具有一第二連接部161及複數第二簧部162。該第二連接部161周緣係延伸形成該些第二簧部162，且各該第二簧部162係分別***該第二蓋體12第二環壁面122的其中一第二***孔1221中，並與該些圓柱型電池13的負極接觸。 The second elastic piece 16 has a second connecting portion 161 and a plurality of second spring portions 162. The second connecting portion 161 extends to form the second spring portions 162 , and the second spring portions 162 are respectively inserted into one of the second insertion holes 1221 of the second ring wall surface 122 of the second cover 12 . And contacting the negative electrodes of the cylindrical batteries 13.

如此一來，該第一彈片15的第一連接部151即透過該些第一簧部152共同連接到該些圓柱型電池13的正極，且由該第一連接部151做為該免銲的圓柱型電池組裝置10的正極。而該第二彈片16的第二連接部161透過該些第二簧部162共同連接到該些圓柱型電池13的負極，令該些圓柱型電池13並聯，且由該第二連接部161做為該免銲的圓柱型電池組裝置10的負極。 In this way, the first connecting portion 151 of the first elastic piece 15 is connected to the positive poles of the cylindrical batteries 13 through the first spring portions 152, and the first connecting portion 151 is used for the solderless The positive electrode of the cylindrical battery unit 10. The second connecting portion 161 of the second elastic piece 16 passes through the second portions The spring portions 162 are commonly connected to the negative poles of the cylindrical batteries 13, so that the cylindrical batteries 13 are connected in parallel, and the second connecting portion 161 serves as the negative electrode of the solderless cylindrical battery unit 10.

由於本發明免銲的圓柱型電池組裝置10係透過將該些圓柱型電池13設置於該第一蓋體11及該第二蓋體12之間，且利用該些鎖固元件14鎖固該些第一連接柱113與該些第二連接柱123，令該第一蓋體11與該第二蓋體12組合，且將該些圓柱型電池13夾設於其中。再進一步將該第一彈片15及該第二彈片16分別***該第一***孔1121與該第二***孔1221，令該第一彈片15與該些圓柱型電池13的正極連接，且令該第二彈片16與該些圓柱型電池13的負極連接。藉此提供一種不需要將電極銲接在電池正負極上的電池組，如此一來便得以節省人力，並可縮短製作工時。且當其中有部分圓柱型電池13損壞時，只需將該第一彈片15及該第二彈片16抽出，並將該第一蓋體11與該第二蓋體12分開，再將其中部分壞掉的圓柱型電池13更換，即可重新使用，進一步可減少廢棄物的產生，對環境保護盡一份心力。 Since the cylindrical battery unit 10 of the present invention is provided between the first cover 11 and the second cover 12 and locked by the locking elements 14 The first connecting post 113 and the second connecting posts 123 combine the first cover 11 and the second cover 12, and the cylindrical batteries 13 are sandwiched therein. The first elastic piece 15 and the second elastic piece 16 are respectively inserted into the first insertion hole 1121 and the second insertion hole 1221, so that the first elastic piece 15 is connected to the positive electrodes of the cylindrical batteries 13, and the The second elastic piece 16 is connected to the negative electrodes of the cylindrical batteries 13. Thereby, a battery pack that does not need to solder the electrodes to the positive and negative electrodes of the battery is provided, thereby saving labor and shortening the manufacturing man-hour. And when a part of the cylindrical battery 13 is damaged, the first elastic piece 15 and the second elastic piece 16 need only be extracted, and the first cover body 11 and the second cover body 12 are separated, and then some of them are broken. When the cylindrical battery 13 is replaced, it can be reused, which further reduces waste generation and contributes to environmental protection.

進一步而言，該第二蓋體12的第二壁面121係形成有複數第二穿孔1211，且該些第二穿孔1211係連通該些第二連接柱123的第二連接孔1231。 Further, the second wall surface 121 of the second cover 12 is formed with a plurality of second through holes 1211, and the second through holes 1211 are connected to the second connecting holes 1231 of the second connecting posts 123.

如此一來，該些鎖固元件14便可由該第一蓋體11的第一穿孔1111或該第二蓋體12的第二穿孔1211穿入，並鎖入該第一蓋體11的第一連接孔1131及該第二蓋體12的第二連接孔1231，讓製作工人在面對該第一蓋體11或該第二蓋體12的方向均可鎖入該鎖固元件14，方便組裝該第一蓋第11及該第二蓋體12。 In this way, the locking elements 14 can be inserted through the first through hole 1111 of the first cover 11 or the second through hole 1211 of the second cover 12, and locked into the first cover 11 The connecting hole 1131 and the second connecting hole 1231 of the second cover 12 allow the manufacturing worker to lock the locking component 14 in the direction facing the first cover 11 or the second cover 12 to facilitate assembly. The first cover 11 and the second cover 12 are.

如圖4所示，該第一彈片15的該些第一簧部152係呈波浪狀，且該些第一簧部152呈波浪狀的波峰或波谷處係接觸該些圓柱型電池13的正極。而該第二彈片16的該些第二簧部162係呈波浪狀，且該些第二簧部162呈波浪狀的波峰或波谷處係接觸該些圓柱型電池13的負極。 As shown in FIG. 4, the first spring portions 152 of the first elastic piece 15 are undulating, and the first spring portions 152 are in contact with the positive poles of the cylindrical batteries 13 in the form of wave-like peaks or troughs. . The second spring portions 162 of the second elastic piece 16 are undulating, and the second spring portions 162 are in contact with the negative electrodes of the cylindrical batteries 13 in the form of wave-like peaks or troughs.

此外，請參閱圖2所示，該第一蓋體11的該些第一穿孔1111係呈矩陣排列形成於該第一壁面11，且該些第一連接柱113係設置於該些第一穿孔1111上，故同樣呈矩陣排列。而該第二蓋體12的該些第二連接柱123亦係呈矩陣排列，且與該第一連接柱113對應抵靠。該些圓柱型電池13同樣係呈矩陣排列，且其中任四相鄰的圓柱型電池13係環繞其中一組相互抵靠的第一連接柱113及第二連接柱123。 In addition, as shown in FIG. 2 , the first through holes 1111 of the first cover 11 are arranged in a matrix on the first wall surface 11 , and the first connecting posts 113 are disposed on the first through holes. On 1111, it is also arranged in a matrix. The second connecting posts 123 of the second cover 12 are also arranged in a matrix and corresponding to the first connecting post 113. The cylindrical batteries 13 are also arranged in a matrix, and any four adjacent cylindrical batteries 13 are surrounded by a set of first connecting columns 113 and second connecting columns 123 which abut each other.

如此一來，便可將該些圓柱型電池13排列的較緊密，以縮小該免銲的圓柱型電池組裝置10的整體體積。 As a result, the cylindrical batteries 13 can be arranged more closely to reduce the overall volume of the solderless cylindrical battery unit 10.

請參閱圖1及圖4所示，該第一蓋體11的該些第一***孔1121係形成於該第一環壁面112與該第一壁面111沿第一方向周緣的交界處。而該第二蓋體12的該些第二***孔1221係形成於該第二環壁面122與該第二壁面121相對該第一方向周緣的交界處。 Referring to FIG. 1 and FIG. 4 , the first insertion holes 1121 of the first cover 11 are formed at a boundary between the first ring wall surface 112 and the first wall surface 111 along the first direction. The second insertion holes 1221 of the second cover 12 are formed at the boundary of the second ring wall surface 122 and the second wall surface 121 with respect to the first direction peripheral edge.

請參閱圖5至圖11所示，本發明第四較佳實施例的該免銲的圓柱型電池組裝置20的係包含有一第三蓋體21、一第四蓋體22、複數第三圓柱型電池23、複數第四圓柱型電池24、複數鎖固元件25、一第三彈片26、一第四彈片27及一第五彈片28。 Referring to FIG. 5 to FIG. 11 , the solderless cylindrical battery assembly 20 of the fourth preferred embodiment of the present invention includes a third cover 21 , a fourth cover 22 , and a plurality of third cylinders. The battery 23, the plurality of fourth cylindrical batteries 24, the plurality of locking elements 25, a third elastic piece 26, a fourth elastic piece 27 and a fifth elastic piece 28.

如圖6及圖7所示，該第三蓋體21係具有一第三壁面211、一第三環壁面212及複數第三連接柱213。該第三壁面211係形成有複數第三穿孔2111。該第三環壁面212係環繞設置於該第三壁面211周緣，且形成有複數第三***孔2121。各該第三連接柱213係分別貫穿形成有一第三連接孔2131，而各該第三連接柱213係分別設置於該第三壁面211的其中一第三穿孔2111上，且各該第三連接柱213的第三連接孔2131係分別連通對應的第三穿孔2111。 As shown in FIG. 6 and FIG. 7 , the third cover 21 has a third wall surface 211 , a third ring wall surface 212 , and a plurality of third connecting columns 213 . The third wall surface 211 is formed with a plurality of third through holes 2111. The third ring wall surface 212 is circumferentially disposed on the periphery of the third wall surface 211 and is formed with a plurality of third insertion holes 2121. Each of the third connecting posts 213 is formed with a third connecting hole 2131, and each of the third connecting posts 213 is respectively disposed on one of the third through holes 2111 of the third wall surface 211, and each of the third connecting portions The third connecting holes 2131 of the column 213 are respectively connected to the corresponding third through holes 2111.

該第四蓋體22係具有一第四壁面221、一第四環壁面222及複數第四連接柱223。該第四環壁面222係環繞設置於該第四壁面221周緣，且形成有複數第四***孔2221。各該第四連接柱223係設置於該第四壁面221，且分別貫穿形成有一第四連接孔2231，而各該第四連接柱223末端係分別抵靠於其中一第三連接柱213末端，且各該第四連接柱223的第四連接孔2231係分別連通抵靠的第三連接柱213的第三連接孔2131。 The fourth cover 22 has a fourth wall surface 221 , a fourth ring wall surface 222 , and a plurality of fourth connecting posts 223 . The fourth ring wall surface 222 is circumferentially disposed on the periphery of the fourth wall surface 221 and formed There are a plurality of fourth insertion holes 2221. Each of the fourth connecting posts 223 is disposed on the fourth connecting wall 221, and a fourth connecting hole 2231 is formed through the end of each of the fourth connecting posts 223, and the ends of the fourth connecting posts 223 are respectively abutted against the end of one of the third connecting posts 213. The fourth connecting holes 2231 of the fourth connecting posts 223 are respectively connected to the third connecting holes 2131 of the third connecting post 213.

該些第三圓柱型電池23係設置於該第三蓋體21及該第四蓋體22之間，且各第三圓柱型電池23分別具有一正極及一負極，而該些第三圓柱型電池23的正極係面向該第三蓋體21，該些第三圓柱型電池23的負極係面向該第四蓋體22。 The third cylindrical battery 23 is disposed between the third cover 21 and the fourth cover 22, and each of the third cylindrical batteries 23 has a positive pole and a negative pole, and the third cylindrical type The positive electrode of the battery 23 faces the third cover 21, and the negative electrode of the third cylindrical battery 23 faces the fourth cover 22.

該些第四圓柱型電池24係設置於該第三蓋體21及該第四蓋體22之間，且各第四圓柱型電池24分別具有一正極及一負極，而該些第四圓柱型電池24的負極係面向該第三蓋體21，該些第四圓柱型電池24的正極係面向該第四蓋體22。 The fourth cylindrical battery 24 is disposed between the third cover 21 and the fourth cover 22, and each of the fourth cylindrical batteries 24 has a positive pole and a negative pole, and the fourth cylindrical type The negative electrode of the battery 24 faces the third cover 21, and the positive electrodes of the fourth cylindrical battery 24 face the fourth cover 22.

各該鎖固元件25係分別自該第三蓋體21的其中一第三穿孔2111穿入，並鎖入該第三蓋體21的第三連接孔2131及該第四蓋體22的第四連接孔2231。 Each of the locking elements 25 is inserted into one of the third through holes 2111 of the third cover 21 and locked into the third connecting hole 2131 of the third cover 21 and the fourth cover 22 The hole 2231 is connected.

請參閱圖6及圖8所示，該第三彈片26係具有一第三連接部261及複數第三簧部262。該第三連接部261周緣係延伸形成該些第三簧部262。該第五彈片28係具有一第五連接部281及複數第五簧部282。該第五連接部281周緣係延伸形成該些第五簧部282。各該第三簧部262及各該第五簧部282係分別***該第三蓋體21第三環壁面212的該些第三***孔2121中，且該些第三簧部262係與該些第三圓柱型電池23的正極接觸，而該些第五簧部282係與該些第四圓柱型電池24的負極接觸。 Referring to FIGS. 6 and 8 , the third elastic piece 26 has a third connecting portion 261 and a plurality of third spring portions 262 . The third connecting portion 261 extends to form the third spring portions 262 . The fifth elastic piece 28 has a fifth connecting portion 281 and a plurality of fifth spring portions 282. The fifth connecting portion 281 extends to form the fifth spring portions 282 at the periphery. Each of the third spring portions 262 and the fifth spring portions 282 are respectively inserted into the third insertion holes 2121 of the third ring wall surface 212 of the third cover body 21, and the third spring portions 262 are associated with the third spring portion 262. The positive electrodes of the third cylindrical battery 23 are in contact with each other, and the fifth spring portions 282 are in contact with the negative electrodes of the fourth cylindrical batteries 24.

請參閱圖6及圖9所示，該第四彈片27係具有一第四連接部271、複數第四負極簧部272及複數第四正極簧部273。該第四連接部271周緣係延伸形成該些第四負極簧部272及該些第四正極簧部273，且該些第四負極簧部272及該些第四正極簧部273係***該第四蓋體22第四環壁面222的該些第四***孔2221中，令該些第四負極簧部272與該些第三圓柱型電池23的負極接觸，且令該些第四正極簧部273與該些第四圓柱型電池24的正極接觸。 Referring to FIGS. 6 and 9 , the fourth elastic piece 27 has a fourth connecting portion 271 , a plurality of fourth negative spring portions 272 , and a plurality of fourth positive spring portions 273 . The fourth connecting portion 271 extends from the periphery The fourth negative spring portion 272 and the fourth positive spring portions 273 are formed, and the fourth negative spring portions 272 and the fourth positive spring portions 273 are inserted into the fourth annular wall surface 222 of the fourth cover 22 In the fourth insertion holes 2221, the fourth negative spring portions 272 are in contact with the negative electrodes of the third cylindrical batteries 23, and the fourth positive electrode portions 273 and the fourth cylindrical batteries are 24 positive contact.

如此一來，該第三彈片26的第三連接部261透過該些第三簧部262共同連接到該些第三圓柱型電池23的正極，且該第四彈片27的第四連接部271透過該些第四負極簧部262共同連接到該些第三圓柱型電池23的負極，令該些第三圓柱型電池23並聯，且由該第三彈片26的第三連接部261做為該免銲的圓柱型電池組裝置20的正極。 As a result, the third connecting portion 261 of the third elastic piece 26 is connected to the positive poles of the third cylindrical batteries 23 through the third spring portions 262, and the fourth connecting portion 271 of the fourth elastic piece 27 is transmitted through. The fourth negative-spring portions 262 are connected in common to the negative poles of the third cylindrical batteries 23, and the third cylindrical batteries 23 are connected in parallel, and the third connecting portion 261 of the third elastic piece 26 serves as the The positive pole of the welded cylindrical battery unit 20.

該第四彈片27的第四連接部271還透過該些第四正極簧部273共同連接到該些第四圓柱型電池24的正極，而該第五彈片28的第五連接部281透過該些第五簧部282共同連接到該些第四圓柱型電池24的負極，令該些第四圓柱型電池24並聯。由於該第四彈片27的第四連接部271同時透過該些第四負極簧部272連接該些第三圓柱型電池23的負極，以及透過該些第四正極簧部273連接該些第四圓柱型電池24的正極，如此一來，即可令該些並聯的第三圓柱型電池23與該些並聯的第四圓柱型電池24串聯。且由該第五彈片28的第五連接部281做為該免銲的圓柱型電池組裝置20的負極。 The fourth connecting portion 271 of the fourth elastic piece 27 is also connected to the positive poles of the fourth cylindrical battery 24 through the fourth positive electrode springs 273, and the fifth connecting portion 281 of the fifth elastic piece 28 transmits the The fifth spring portion 282 is commonly connected to the negative poles of the fourth cylindrical batteries 24, and the fourth cylindrical batteries 24 are connected in parallel. The fourth connecting portion 271 of the fourth elastic piece 27 is connected to the negative poles of the third cylindrical batteries 23 through the fourth negative spring portions 272, and the fourth cylindrical portions are connected through the fourth positive spring portions 273. The positive pole of the battery 24 can be such that the parallel three cylindrical batteries 23 are connected in series with the parallel fourth cylindrical batteries 24. And the fifth connecting portion 281 of the fifth elastic piece 28 serves as a negative electrode of the solderless cylindrical battery unit 20.

藉由該些第三圓柱型電池23及該些第四圓柱型電池24的串並聯，即可令該免銲的圓柱型電池組裝置20提供不同的電壓，增加該免銲的圓柱型電池組裝置20的設計彈性。 By the series connection of the third cylindrical battery 23 and the fourth cylindrical batteries 24, the solderless cylindrical battery device 20 can be supplied with different voltages, and the solderless cylindrical battery pack can be added. The design of the device 20 is flexible.

進一步而言，該第四蓋體22的第四壁面221係形成有複數第四穿孔2211，且該些第四穿孔2211係連通該些第四連接柱223的第四連接孔2231。 Further, the fourth wall surface 221 of the fourth cover 22 is formed with a plurality of fourth through holes 2211, and the fourth through holes 2211 are connected to the fourth connecting holes 2231 of the fourth connecting posts 223.

如此一來，該些鎖固元件25便可由該第三蓋體21的第三穿孔2111或該第四蓋體22的第四穿孔2211穿入，並鎖入該第三蓋體21的第三連接孔 2131及該第四蓋體22的第四連接孔2231，讓製作工人在面對該第三蓋體21或該第四蓋體22的方向均可鎖入該鎖固元件25，方便組裝該第三蓋第21及該第四蓋體22。 In this way, the locking elements 25 can be inserted through the third through hole 2111 of the third cover 21 or the fourth through hole 2211 of the fourth cover 22, and locked into the third cover 31. Connection hole 2131 and the fourth connecting hole 2231 of the fourth cover 22, so that the manufacturing worker can lock the locking component 25 in the direction facing the third cover 21 or the fourth cover 22, so as to facilitate assembly. The third cover 21 and the fourth cover 22 are provided.

如圖7所示，該第三彈片26的該些第三簧部262係呈波浪狀，且該些第三簧部262呈波浪狀的波峰或波谷處係接觸該些第三圓柱型電池23的正極。而該第四彈片27的該些第四負極簧部272係呈波浪狀，且該些第四負極簧部272呈波浪狀的波峰或波谷處係接觸該些第三圓柱型電池23的負極。 As shown in FIG. 7 , the third spring portions 262 of the third elastic piece 26 are undulating, and the third spring portions 262 are in contact with the third cylindrical batteries 23 in the form of wave-like peaks or troughs. The positive pole. The fourth negative spring portions 272 of the fourth elastic piece 27 are wavy, and the fourth negative electrode spring portions 272 are in contact with the negative electrodes of the third cylindrical batteries 23 in the form of wave-like peaks or troughs.

如圖8所示，該第四彈片27的該些第四正極簧部273係呈波浪狀，且該些第四正極簧部273呈波浪狀的波峰或波谷處係接觸該些第四圓柱型電池24的正極。而該第五彈片28的該些第五簧部282係呈波浪狀，且該些第五簧部282呈波浪狀的波峰或波谷處係接觸該些第四圓柱型電池24的負極。 As shown in FIG. 8 , the fourth positive-spring portions 273 of the fourth elastic piece 27 are undulating, and the fourth positive-spring portions 273 have wavy peaks or troughs contacting the fourth cylindrical type. The positive pole of battery 24. The fifth spring portions 282 of the fifth elastic piece 28 are undulating, and the fifth spring portions 282 are in contact with the negative electrodes of the fourth cylindrical batteries 24 in the form of wave-like peaks or troughs.

此外，請參閱圖6所示，該第三蓋體21的該些第三穿孔2111係呈矩陣排列形成於該第三壁面21，且該些第三連接柱213係設置於該些第三穿孔2111上，故同樣呈矩陣排列。而該第四蓋體22的該些第四連接柱223亦係呈矩陣排列，且與該第三連接柱213對應抵靠。該些第三圓柱型電池23及該些第四圓柱型電池24同樣係呈矩陣排列，且其中任四相鄰的第三或第四圓柱型電池23、24係環繞其中一組相互抵靠的第三連接柱213及第四連接柱223。 In addition, as shown in FIG. 6 , the third through holes 2111 of the third cover 21 are arranged in a matrix on the third wall surface 21 , and the third connecting posts 213 are disposed on the third through holes. 2111, so they are also arranged in a matrix. The fourth connecting posts 223 of the fourth cover 22 are also arranged in a matrix and correspond to the third connecting posts 213. The third cylindrical battery 23 and the fourth cylindrical batteries 24 are also arranged in a matrix, and any four adjacent third or fourth cylindrical batteries 23, 24 are surrounded by one of the groups. The third connecting post 213 and the fourth connecting post 223.

如此一來，便可將該些第三圓柱型電池23及第四圓柱型電池24排列的較緊密，以縮小該免銲的圓柱型電池組裝置20的整體體積。 In this way, the third cylindrical battery 23 and the fourth cylindrical battery 24 can be arranged closely to reduce the overall volume of the solderless cylindrical battery device 20.

請參閱圖6、圖7及圖8所示，該第三蓋體21的該些第三***孔2121係形成於該第三環壁面212與該第三壁面211沿第三方向周緣的交界處。而該第四蓋體22的該些第四***孔2221係形成於該第四環壁面222與該第四壁面221相對該第三方向周緣的交界處。 Referring to FIG. 6 , FIG. 7 and FIG. 8 , the third insertion holes 2121 of the third cover body 21 are formed at the boundary of the third ring wall surface 212 and the third wall surface 211 along the periphery of the third direction. . The fourth insertion holes 2221 of the fourth cover 22 are formed at the boundary of the fourth ring wall surface 222 and the fourth wall surface 221 with respect to the third direction peripheral edge.

進一步而言，請參閱圖10及圖11所示，該第三蓋體21係由多個第三蓋單元210所組成，且該第三蓋體21進一步包含有複數連接單元2101。而各該第三蓋單元210周緣係形成有複數卡溝2102，且其中二第三蓋單元210的卡溝2102係相互抵靠，而該連接單元2101設置於相互抵靠的二第三蓋單元210的卡溝2102中，以將二個第三蓋單元210組合。在本較佳實施例中，該連接單元2101係呈工字型。 Further, referring to FIG. 10 and FIG. 11 , the third cover 21 is composed of a plurality of third cover units 210 , and the third cover 21 further includes a plurality of connection units 2101 . Each of the third cover units 210 is formed with a plurality of card grooves 2102 at the periphery thereof, and wherein the card grooves 2102 of the two third cover units 210 abut each other, and the connection unit 2101 is disposed on the second cover unit that abuts each other. In the card groove 2102 of 210, the two third cover units 210 are combined. In the preferred embodiment, the connecting unit 2101 is in the shape of an I-shape.

該第四蓋體22係由多個第四蓋單元220所組成，且該第四蓋體22進一步包含有複數連接單元2201。而各該第四蓋單元220周緣係形成有複數卡溝2202，且其中二第四蓋單元220的卡溝2202係相互抵靠，而該連接單元2201設置於相互抵靠的二第四蓋單元220的卡溝2202中，以將二個第三蓋單元220組合。在本較佳實施例中，該連接單元2201係呈工字型。 The fourth cover 22 is composed of a plurality of fourth cover units 220, and the fourth cover 22 further includes a plurality of connection units 2201. Each of the fourth cover units 220 is formed with a plurality of card grooves 2202, and wherein the card grooves 2202 of the second and fourth cover units 220 abut each other, and the connection unit 2201 is disposed on the second and fourth cover units that abut each other. In the card groove 2202 of 220, the two third cover units 220 are combined. In the preferred embodiment, the connecting unit 2201 is in the shape of an I-shape.

由於該第三蓋體21與該第四蓋體22係透過多個第三蓋單元210及多個第四蓋單元220組裝而形成，當製作該免銲的圓柱型電池組裝置20時，即可以一個第三蓋單元210與一個第四蓋單元220做為基本模組開始製作，並將該第三圓柱型電池23或該第四圓柱型電池24設置於該第三蓋單元210與該第四蓋單元220之間，提高製作效率，且可將多個基本模組相互拼裝，最後再視需求***該第三彈片26、第四彈片27或該第五彈片28，將該些第三圓柱型電池23及該第四圓柱型電池24串聯或並聯，增加設計彈性，並提高製作效率。 Since the third cover 21 and the fourth cover 22 are formed by being assembled through the plurality of third cover units 210 and the plurality of fourth cover units 220, when the solderless cylindrical battery unit 20 is fabricated, A third cover unit 210 and a fourth cover unit 220 can be used as a basic module, and the third cylindrical battery 23 or the fourth cylindrical battery 24 can be disposed on the third cover unit 210 and the first cover unit 210. Between the four cover units 220, the manufacturing efficiency is improved, and the plurality of basic modules can be assembled with each other. Finally, the third elastic piece 26, the fourth elastic piece 27 or the fifth elastic piece 28 is inserted into the third cylindrical piece 28 as needed. The battery 23 and the fourth cylindrical battery 24 are connected in series or in parallel to increase design flexibility and improve manufacturing efficiency.

以上所述僅是本發明的較佳實施例而已，並非對本發明做任何形式上的限制，雖然本發明已以較佳實施例揭露如上，然而並非用以限定本發明，任何熟悉本專業的技術人員，在不脫離本發明技術方案的範圍內，當可利用上述揭示的技術內容做出些許更動或修飾為等同變化的等效實施例，但凡是未脫離本發明技術方案的內容，依據本發明的技術實質對以上實施例所作的任何簡單修改、等同變化與修飾，均仍屬於本發明技術方案的範圍內。 The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention. A person skilled in the art can make some modifications or modifications to equivalent embodiments by using the above-disclosed technical contents without departing from the technical scope of the present invention, but without departing from the technical solution of the present invention, according to the present invention. Technical Substantials Any simple modifications, equivalent changes and modifications made to the above embodiments are still within the scope of the technical solutions of the present invention.

11‧‧‧第一蓋體 11‧‧‧First cover

111‧‧‧第一壁面 111‧‧‧First wall

1111‧‧‧第一穿孔 1111‧‧‧First perforation

112‧‧‧第一環壁面 112‧‧‧First ring wall

1121‧‧‧第一***孔 1121‧‧‧First insertion hole

113‧‧‧第一連接柱 113‧‧‧First connecting column

12‧‧‧第二蓋體 12‧‧‧Second cover

121‧‧‧第二壁面 121‧‧‧ second wall

122‧‧‧第二環壁面 122‧‧‧ second ring wall

1221‧‧‧第二***孔 1221‧‧‧Second insertion hole

123‧‧‧第二連接柱 123‧‧‧Second connection column

1231‧‧‧第二連接孔 1231‧‧‧Second connection hole

13‧‧‧圓柱型電池 13‧‧‧Cylindrical battery

14‧‧‧鎖固元件 14‧‧‧Locking components

15‧‧‧第一彈片 15‧‧‧First shrapnel

151‧‧‧第一連接部 151‧‧‧First connection

152‧‧‧第一簧部 152‧‧‧First Spring

16‧‧‧第二彈片 16‧‧‧Second shrapnel

161‧‧‧第二連接部 161‧‧‧Second connection

162‧‧‧第二簧部 162‧‧‧Second spring

Claims

一種免銲的圓柱型電池組裝置，係包含有：一第一蓋體，係具有：一第一壁面，係形成有複數第一穿孔；一第一環壁面，係環繞設置於該第一壁面周緣，且該第一環壁面係形成有複數第一***孔；複數第一連接柱，係分別貫穿形成有一第一連接孔，而各該第一連接柱係分別對應該第一壁面的其中一第一穿孔設置，使得各該第一連接柱的第一連接孔係分別連通對應的第一穿孔；一第二蓋體，係具有：一第二壁面；一第二環壁面，係環繞設置於該第二壁面周緣，且該第二環壁面係形成有複數第二***孔；複數第二連接柱，係設置於該第二壁面，且分別貫穿形成有一第二連接孔；其中各該第二連接柱末端係分別抵靠於其中一第一連接柱末端，且各該第二連接柱的第二連接孔係分別連通抵靠的第一連接柱的第一連接孔；複數圓柱型電池，係設置於該第一蓋體與該第二蓋體之間；其中各該圓柱型電池係分別具有一正極及一負極，且各圓柱型電池的正極係面向該第一蓋體，而各圓柱型電池的負極係面向該第二蓋體；複數鎖固元件，係分別自該第一蓋體的其中一第一穿孔穿入並鎖入該第一蓋體的第一連接孔與該第二蓋體的第二連接孔；一第一彈片，係具有一第一連接部及複數第一簧部；其中該第一連接部周緣係延伸形成該些第一簧部，且各該第一簧部係分別***該第一蓋體第一環壁面的其中一第一***孔中，並與該些圓柱型電池的正極接觸；及一第二彈片，係具有一第二連接部及複數第二簧部；其中該第二連接部周緣係延伸形成該些第二簧部，且各該第二簧部係分別***該第二蓋體第二環壁面的其中一第二***孔中，並與該些圓柱型電池的負極接觸。 A solderless cylindrical battery device includes: a first cover having a first wall surface formed with a plurality of first through holes; and a first ring wall surface circumferentially disposed on the first wall surface a peripheral edge, and the first ring wall surface is formed with a plurality of first insertion holes; the plurality of first connecting columns are respectively formed with a first connecting hole, and each of the first connecting columns respectively corresponds to one of the first wall faces The first perforations are disposed such that the first connecting holes of the first connecting posts are respectively connected to the corresponding first through holes; the second cover body has: a second wall surface; and a second ring wall surface is disposed around The second wall surface is formed with a plurality of second insertion holes; the plurality of second connection columns are disposed on the second wall surface, and a second connection hole is formed through the second connection hole; wherein each of the second The end of the connecting post is respectively abutted against the end of one of the first connecting posts, and the second connecting holes of each of the second connecting posts are respectively connected to the first connecting hole of the first connecting post; the plurality of cylindrical batteries Set on the first cover Between the second cover and the second cover; wherein each of the cylindrical batteries has a positive electrode and a negative electrode, and the positive electrode of each cylindrical battery faces the first cover, and the negative electrode of each cylindrical battery faces the first cover a second cover body; a plurality of locking elements respectively penetrating from the first through hole of the first cover body and locking into the first connection hole of the first cover body and the second connection hole of the second cover body; a first elastic piece has a first connecting portion and a plurality of first spring portions; wherein the first connecting portion extends to form the first spring portions, and each of the first spring portions is respectively inserted into the first cover portion One of the first insertion holes of the first ring wall of the body and is in contact with the positive electrodes of the cylindrical batteries; a second elastic piece has a second connecting portion and a plurality of second spring portions; wherein the second connecting portion extends to form the second spring portions, and each of the second spring portions is respectively inserted into the second cover portion One of the second insertion holes of the second ring wall of the body is in contact with the negative electrodes of the cylindrical batteries.

如請求項1所述之免銲的圓柱型電池組裝置，其中該第二蓋體的第二壁面係形成有複數第二穿孔，且該些第二穿孔係連通該些第二連接柱的第二連接孔。 The solderless cylindrical battery device of claim 1, wherein the second wall of the second cover is formed with a plurality of second perforations, and the second perforations are connected to the second connecting post Two connection holes.

如請求項1所述之免銲的圓柱型電池組裝置，其中：該第一彈片的該些第一簧部係呈波浪狀，且該些第一簧部呈波浪狀的波峰或波谷處係接觸該些圓柱型電池的正極；該第二彈片的該些第二簧部係呈波浪狀，且該些第二簧部呈波浪狀的波峰或波谷處係接觸該些圓柱型電池的負極。 The solderless cylindrical battery device of claim 1, wherein: the first spring portions of the first elastic piece are wavy, and the first spring portions have a wave-like peak or trough Contacting the positive poles of the cylindrical batteries; the second spring portions of the second elastic piece are undulating, and the second spring portions have wavy peaks or troughs contacting the negative electrodes of the cylindrical batteries.

如請求項1所述之免銲的圓柱型電池組裝置，其中：該第一蓋體的該些第一穿孔及該些第一連接柱係呈矩陣排列形成於該第一壁面；該第二蓋體的該些第二連接柱係呈矩陣排列；該些圓柱型電池係呈矩陣排列，且其中任四相鄰的圓柱型電池係環繞其中一組相互抵靠的第一連接柱及第二連接柱。 The solderless cylindrical battery device of claim 1, wherein: the first through holes of the first cover and the first connecting columns are arranged in a matrix on the first wall; the second The second connecting columns of the cover are arranged in a matrix; the cylindrical batteries are arranged in a matrix, and any four adjacent cylindrical batteries surround one of the first connecting columns and the second connecting each other Connect the column.

如請求項1所述之免銲的圓柱型電池組裝置，其中：該第一蓋體的該些第一***孔係形成於該第一環壁面與該第一壁面沿第一方向周緣的交界處；該第二蓋體的該些第二***孔係形成於該第二環壁面與該第二壁面相對該第一方向周緣的交界處。 The solderless cylindrical battery device of claim 1, wherein the first insertion holes of the first cover are formed at a boundary between the first ring wall surface and the first wall surface in a first direction The second insertion holes of the second cover are formed at a boundary of the second ring wall surface and the second wall surface with respect to the first direction peripheral edge.

一種免銲的圓柱型電池組裝置，係包含有：一第三蓋體，係具有：一第三壁面，係形成有複數第三穿孔；一第三環壁面，係環繞設置於該第三壁面周緣，且該第三環壁面係形成有複數第三***孔；複數第三連接柱，係分別貫穿形成有一第三連接孔，而各該第三連接柱係分別對應該第三壁面的其中一第三穿孔設置，使得各該第三連接柱的第三連接孔係分別連通對應的第三穿孔；一第四蓋體，係具有：一第四壁面；一第四環壁面，係環繞設置於該第四壁面周緣，且該第四環壁面係形成有複數第四***孔；複數第四連接柱，係設置於該第四壁面，且分別貫穿形成有一第四連接孔；其中各該第四連接柱末端係分別抵靠於其中一第三連接柱末端，且各該第四連接柱的第四連接孔係分別連通抵靠的第三連接柱的第三連接孔；複數第三圓柱型電池，係設置於該第三蓋體與該第四蓋體之間；其中各該第三圓柱型電池係分別具有一正極及一負極，且各第三圓柱型電池的正極係面向該第三蓋體，而各第三圓柱型電池的負極係面向該第四蓋體；複數第四圓柱型電池，係設置於該第三蓋體與該第四蓋體之間；其中各該第四圓柱型電池係分別具有一正極及一負極，且各第四圓柱型電池的負極係面向該第三蓋體，而各第四圓柱型電池的正極係面向該第四蓋體；複數鎖固元件，係分別自該第三蓋體的其中一第三穿孔穿入並鎖入該第三蓋體的第三連接孔與該第四蓋體的第四連接孔；一第三彈片，係具有一第三連接部及複數第三簧部；其中該第三連接部周緣係延伸形成該些第三簧部；其中該第三彈片的該些第三簧部係***該第三蓋體第三環壁面的該些第三***孔中，且該些第三簧部係與該些第三圓柱型電池的正極接觸；一第四彈片，係具有一第四連接部、複數第四負極簧部及複數第四正極簧部；其中該第四連接部周緣係延伸形成該些第四負極簧部及該些第四正極簧部，且該些第四負極簧部及該些第四正極簧部係***該第四蓋體第四環壁面的該些第四***孔中，且該些第四負極簧部係與該些第三圓柱型電池的負極接觸，而該些第四正極簧部係與該些第四圓柱型電池的正極接觸；一第五彈片，係具有一第五連接部及複數第五簧部；其中該第五連接部周緣係延伸形成該些第五簧部；其中該第五彈片的該些第五簧部係***該第三蓋體第三環壁面的該些第三***孔中，且該些第五簧部係與該些第四圓柱型電池的負極接觸。 A solderless cylindrical battery device comprising: a third cover having: a third wall surface is formed with a plurality of third perforations; a third ring wall surface is disposed around the periphery of the third wall surface, and the third ring wall surface is formed with a plurality of third insertion holes; a plurality of third connecting columns, A third connecting hole is formed through each of the third connecting holes, and each of the third connecting columns is respectively disposed corresponding to one of the third through holes of the third wall surface, so that the third connecting holes of each of the third connecting columns are respectively connected to the corresponding first a fourth cover body having a fourth wall surface; a fourth ring wall surface disposed around the periphery of the fourth wall surface; and the fourth ring wall surface is formed with a plurality of fourth insertion holes; a fourth connecting column is disposed on the fourth wall surface, and a fourth connecting hole is formed through the through hole; wherein each of the fourth connecting post ends respectively abuts against one of the third connecting post ends, and each of the fourth connecting columns The fourth connecting hole is respectively connected to the third connecting hole of the third connecting post; the plurality of third cylindrical batteries are disposed between the third cover and the fourth cover; wherein each of the third Cylindrical battery system has one a pole and a negative electrode, and a positive electrode of each of the third cylindrical batteries faces the third cover, and a negative electrode of each of the third cylindrical batteries faces the fourth cover; and a plurality of fourth cylindrical batteries are disposed at the pole Between the third cover and the fourth cover; wherein each of the fourth cylindrical battery has a positive electrode and a negative electrode, and the negative electrode of each of the fourth cylindrical batteries faces the third cover, and each of the first The positive electrode of the four-cylinder battery faces the fourth cover; the plurality of locking elements are respectively inserted into the third through hole of the third cover from the third through hole of the third cover and locked with the third cover a fourth connecting hole of the fourth cover; a third elastic piece having a third connecting portion and a plurality of third spring portions; wherein the third connecting portion extends to form the third spring portions; wherein the third spring portion Inserting the third spring portions of the elastic piece into the third cover In the third insertion holes of the third ring wall surface, the third spring portions are in contact with the positive electrodes of the third cylindrical batteries; and a fourth elastic piece has a fourth connecting portion and a fourth portion a negative electrode spring portion and a plurality of fourth positive electrode spring portions; wherein the fourth connecting portion extends to form the fourth negative electrode spring portion and the fourth positive electrode spring portions, and the fourth negative electrode spring portions and the fourth portions The positive electrode spring portion is inserted into the fourth insertion holes of the fourth ring wall surface of the fourth cover body, and the fourth negative electrode spring portions are in contact with the negative electrodes of the third cylindrical batteries, and the fourth positive electrodes are The spring portion is in contact with the positive electrodes of the fourth cylindrical batteries; a fifth elastic piece has a fifth connecting portion and a plurality of fifth spring portions; wherein the fifth connecting portion extends to form the fifth spring portions The fifth spring portions of the fifth elastic piece are inserted into the third insertion holes of the third ring wall surface of the third cover body, and the fifth spring portions are connected to the fourth cylindrical batteries. Negative contact.

如請求項6所述之免銲的圓柱型電池組裝置，其中該第四蓋體的第四壁面係形成有複數第四穿孔，且該些第四穿孔係連通該些第四連接柱的第四連接孔。 The solderless cylindrical battery device of claim 6, wherein the fourth wall of the fourth cover is formed with a plurality of fourth perforations, and the fourth perforations are connected to the fourth connecting post Four connection holes.

如請求項6所述之免銲的圓柱型電池組裝置，其中：該第三彈片的該些第三簧部係呈波浪狀，且該些第三簧部呈波浪狀的波峰或波谷處係接觸該些第三圓柱型電池的正極；該第四彈片的該些第四負極簧部係呈波浪狀，且該些第四負極簧部呈波浪狀的波峰或波谷處係接觸該些第三圓柱型電池的負極；該第五彈片的該些第五簧部係呈波浪狀，且該些第四簧部呈波浪狀的波峰或波谷處係接觸該些第四圓柱型電池的負極。 The solderless cylindrical battery device of claim 6, wherein: the third spring portions of the third elastic piece are undulating, and the third spring portions are wavy crests or troughs Contacting the positive poles of the third cylindrical batteries; the fourth negative spring portions of the fourth elastic piece are undulating, and the fourth negative spring portions have wavy peaks or troughs contacting the third portions a negative electrode of the cylindrical battery; the fifth spring portions of the fifth elastic piece are wave-shaped, and the fourth spring portion has a wave-like peak or trough to contact the negative electrode of the fourth cylindrical battery.

如請求項6所述之免銲的圓柱型電池組裝置，其中：該第三蓋體的該些第三穿孔及該些第三連接柱係呈矩陣排列形成於該第三壁面；該第四蓋體的該些第四連接柱係呈矩陣排列；該些第三圓柱型電池及該些第四圓柱型電池係呈矩陣排列，且其中任四相鄰的第三圓柱型電池及第四圓柱型電池係環繞其中一組相互抵靠的第三連接柱及第四連接柱。 The solderless cylindrical battery device of claim 6, wherein: the third through holes of the third cover and the third connecting columns are arranged in a matrix on the third wall surface; The fourth connecting columns of the fourth cover are arranged in a matrix; the third cylindrical batteries and the fourth cylindrical batteries are arranged in a matrix, and any four adjacent third cylindrical batteries and The fourth cylindrical battery is surrounded by a third set of connecting columns and a fourth connecting post that abut each other.

如請求項6所述之免銲的圓柱型電池組裝置，其中：該第三蓋體的該些第三***孔係形成於該第三環壁面與該第三壁面沿第三方向周緣的交界處；該第四蓋體的該些第四***孔係形成於該第四環壁面與該第四壁面相對該第三方向周緣的交界處。 The solderless cylindrical battery device of claim 6, wherein: the third insertion holes of the third cover are formed at a boundary between the third ring wall surface and the third wall surface in a third direction The fourth insertion holes of the fourth cover are formed at a boundary of the fourth ring wall surface and the fourth wall surface with respect to the third direction peripheral edge.

如請求項6所述之免銲的圓柱型電池組裝置，其中：該第三蓋體係由多個第三蓋單元所組成，且該第三蓋體進一步包含有複數連接單元；各該第三蓋單元周緣係形成有複數卡溝；其中二第三蓋單元的卡溝係相互抵靠，且該連接單元設置於相互抵靠的二第三蓋單元的卡溝中。 The solderless cylindrical battery device of claim 6, wherein: the third cover system is composed of a plurality of third cover units, and the third cover further comprises a plurality of connection units; each of the third A plurality of card grooves are formed on the periphery of the cover unit; wherein the card grooves of the two third cover units abut each other, and the connection unit is disposed in the card grooves of the two third cover units that abut each other.

如請求項11所述之免銲的圓柱型電池組裝置，其中該連接單元係呈工字型。 The solderless cylindrical battery unit of claim 11, wherein the connecting unit is in an I-shape.

如請求項6所述之免銲的圓柱型電池組裝置，其中：該第四蓋體係由多個第四蓋單元所組成，且該第四蓋體進一步包含有複數連接單元；各該第四蓋單元周緣係形成有複數卡溝；其中二第四蓋單元的卡溝係相互抵靠，而該連接單元設置於相互抵靠的二第四蓋單元的卡溝中。 The solderless cylindrical battery device of claim 6, wherein: the fourth cover system is composed of a plurality of fourth cover units, and the fourth cover further comprises a plurality of connection units; each of the fourth A plurality of card grooves are formed on the periphery of the cover unit; wherein the card grooves of the two fourth cover units abut each other, and the connection unit is disposed in the card grooves of the second and fourth cover units that abut each other.

如請求項13所述之免銲的圓柱型電池組裝置，其中該連接單元係呈工字型。 The solderless cylindrical battery unit of claim 13, wherein the connecting unit is in an I-shape.